This course introduces the Versal® ACAP network on chip (NoC) tousers familiar with other SoC architectures. Besides providing anoverview of the major components in the Versal ACAP device, thecourse illustrates how the NoC is used to efficiently move data withinthe device.
The emphasis of this course is on:
Enumerating the major components comprising the NoC architecture in the Versal ACAP
Implementing a basic design using the NoC
Configuring the NoC for efficient data movement
What's New for 2024.1
All labs have been updated to the latest software versions
Level
ACAP 2
Course Duration
1 day
Audience
Hardware developers and system architects whether migrating from existing AMD SoC devices or starting out with the Versal devices
Prerequisites
Any SoC or Versal adaptive SoC architecture course
Familiarity with the Vivado™ Design Suite
Familiarity with the Vitis™ Unified IDE
Software Tools
Vivado Design Suite 2024.1
Vitis unified software platform 2024.1
Hardware
Architecture: Versal adaptive SoCs
Skills Gained
After completing this comprehensive training, you will have the necessary skills to:
Identify the major network on chip components in the AMD Versal architecture
Include the necessary components to access the NoC from the PL
Configure connection QoS for efficient data movement
Course Outline
Day 1
Architecture Overview for Existing Xilinx Users – Introduces to students that already have familiarity with Xilinx architectures to the new and updated features found in the Versal ACAP devices. {Lecture}
Versal ACAPs Compared to Zynq UltraScale+ Devices– The Versal ACAP has a number of similarities to the Zynq® UltraScale+™ MPSoC devices. Understanding what is the same, what is different, and what is brand new helps put this powerful new part into context. {Lecture}
NoC Introduction and Concepts – Reviews the basic vocabulary and high–level operations of the NoC. {Lecture, Lab}
NoC Architecture – Provides the first deep dive into the sub–blocks of the NoC and how they are used. Describes how the NoC is accessed from the programmable logic. {Lecture}
Design Tool Flow Overview – Designers come to the Versal ACAP devices with different goals. This module explores how traditional FPGA designers, embedded developers, and accelerated system designers would use the various tools available in the Xilinx toolbox. {Lecture}
NoC DDR Memory Controller –The integration between the NoC pathways and the DDR memory controllers must be understood to have efficient data movement on and off chip. This discussion of the NoC’s DDR memory controller blocks provides the background for properly selecting and configuring DDR memory and the memory controller for effective use. {Lecture}
NoC Performance Tuning – Synthesizes everything about the NoC and its DDRMCs, illustrating how to fine tune the NoC for the best performance. {Lecture, Lab}
System Design Migration – Describes how different users will leverage tools and processes to migrate their designs to the Versal ACAP devices. {Lecture}